A method for forming a semiconductor device includes forming gate stacks on a crystalline semiconductor layer; depositing a spacer layer over a top and sidewalls of the gate stacks; recessing the semiconductor layer between the gates stacks; and depositing a non-conformal layer over the gates stacks and within the recesses such that the non-conformal layer forms a pinch point over the recesses. The non-conformal layer is etched at a bottom of the recesses through the pinch point to expose the semiconductor layer. Dopant species are implanted at the bottom of the recesses through the pinch point in the semiconductor layer. The non-conformal layer is stripped, and source and drain material is grown in the recesses. The dopant species are activated to form PN junctions to act as a junction butt between portions of the semiconductor layer.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for forming a semiconductor device, comprising: forming gate stacks on a crystalline semiconductor layer; depositing a spacer layer over a top and sidewalls of the gate stacks; recessing the semiconductor layer between the gates stacks; depositing a non-conformal layer over the gates stacks and within the recesses such that the non-conformal layer forms a pinch point over the recesses; etching the non-conformal layer at a bottom of the recesses through the pinch point to expose the semiconductor layer; implanting dopant species at the bottom of the recesses through the pinch point in the semiconductor layer; stripping the non-conformal layer; growing source and drain material in the recesses; and activating the dopant species to form PN junctions to act as a junction butt between portions of the semiconductor layer.
2. The method as recited in claim 1 , wherein depositing a non-conformal layer includes depositing an oxide layer using a chemical vapor deposition process.
3. The method as recited in claim 1 , wherein implanting dopant species includes a dopant species having a same conductivity type as source and drain regions formed from the source and drain material.
4. The method as recited in claim 3 , wherein activating the dopant species includes annealing such that the dopant species alter conductive properties of the semiconductor layer.
5. The method as recited in claim 1 , wherein etching the non-conformal layer at a bottom of the recesses through the pinch point to expose the semiconductor layer includes opening a window in the semiconductor layer and the step of growing source and drain material in the recesses includes epitaxially growing the source and drain material from the window.
6. The method as recited in claim 1 , wherein the crystalline substrate includes a handle substrate for a semiconductor on insulator (SOI) structure, and the semiconductor layer includes a semiconductor device layer of the SOI structure and a buried dielectric is disposed between the handle substrate and the semiconductor device layer such that the junction butts are formed in the semiconductor device layer disposed between the source and drain regions at a bottom of the recess and the buried dielectric layer.
7. The method as recited in claim 1 , wherein etching the non-conformal layer at the bottom of the recesses includes forming self-aligned windows through the non-conformal layer that expose the semiconductor layer.
8. The method as recited in claim 7 , wherein implanting dopant species at the bottom of the recesses includes forming self-aligned implant regions.
9. A method for forming a semiconductor device, comprising: forming gate stacks on a crystalline semiconductor layer of a semiconductor on insulator (SOI) structure; depositing a spacer layer over a top and sidewalls of the gate stacks; recessing the semiconductor layer between the gates stacks without reaching a buried dielectric of the SOI structure; depositing a non-conformal layer over the gates stacks and within the recesses such that the non-conformal layer forms a pinch point over the recesses; etching the non-conformal layer at a bottom of the recesses through the pinch point to form self-aligned windows that expose the semiconductor layer; implanting dopant species at the bottom of the recesses through the pinch point and into the windows in the semiconductor layer to form self-aligned implant regions; stripping the non-conformal layer; growing source and drain material in the recesses; and activating the implant regions to form PN junctions to act as a junction butt between portions of the semiconductor layer.
10. The method as recited in claim 9 , wherein depositing a non-conformal layer includes depositing an oxide layer using a chemical vapor deposition process.
11. The method as recited in claim 9 , wherein implanting dopant species includes a dopant species having a same conductivity type as source and drain regions formed from the source and drain material.
12. The method as recited in claim 11 , wherein activating dopant species includes annealing such that the dopant species alter conductive properties of the semiconductor layer.
13. The method as recited in claim 9 , wherein growing source and drain material in the recesses includes epitaxially growing the source and drain material from the windows.
14. The method as recited in claim 9 , further comprising forming halo and extension regions in the semiconductor layer.
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October 18, 2013
December 8, 2015
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